Desorption kinetics of volatile organic contaminants from aquifer materials. Membrane Sci. Farrell, J. Pretreatment for water reuse using fluidized bed crystallization. Journal of Water Process Engineering. J Computational and Theoretical Chemistry , , Evaluating electrocoagulation and chemical coagulation for removing dissolved silica from high efficiency reverse osmosis HERO concentrate solutions.
Journal of Water Process Engineering , 16, Journal of Water Process Engineering , 19, Chen, Y. Environmental Engineering Science , 34 6 , Tridentate arsenate complexation with ferric hydroxide and its effect on the kinetics of arsenate adsorption and desorption. Chemosphere , , Understanding Nitrilotris methylenephosphonic acid Reactions with Ferric Hydroxide.
Aghdam, M. A novel brine precipitation process for higher water recovery. Environmental Science and Technology , 50, Consider a path where beauty and functionality meet strength and efficiency. From structural integrity to efficient heating and cooling, become a master at balancing top-down architectural design and component-up engineering design.
Be the bridge between architects, engineers and contractors. Join the biomedical revolution! This highly interdisciplinary, approved pre med program includes biomaterials, biomechanics, biosensors and microtechnologies. Use your know-how in engineering, medicine and biological sciences to advance telemedicine and improve medical diagnostics, treatment and therapy. Gain a deeper understanding of agriculture and biology — knowledge that will help feed the world and someday may be used to design life support systems for colonies on other planets.
Students in UA biosystems engineering combine technical knowledge, computer techniques and control systems to manage soil and water resources and develop biological and biomedical products.
Work on projects involving wise use of energy, materials, biochemicals and recyclable wastes. Sustainability is a key driver of invention at the University of Arizona. In UA chemical engineering, apply emerging technologies in chemistry, math and physics to design and manufacture better consumer products, increase food production, and produce cleaner water and air.
Hands-on experience and interactive classes in environmental, premedical and biomedical focus areas prepare you for success in private industry and with public agencies. If you want to build sustainable, resilient cities and infrastructures, University of Arizona civil engineering is the place for you.
Learn to design and construct buildings, roads, bridges, dams, tunnels, and power plants that can withstand earthquakes and other disasters. Focus on structural, geotechnical, transportation, or hydraulics and environmental civil engineering to hone your skills for the workforce. Every technological device we rely on — cell phones, laptops, automobiles, medical imaging and power plants — depends on electrical and computer engineers. In the University of Arizona electrical and computer engineering program, you gain a solid foundation in analytical thinking and problem solving and robot creation!
Delve into circuit design, power systems, mechatronics and electromagnetics or focus on software and operating system design and wireless communications. Combine your love of engineering and business in the University of Arizona engineering management program. Get set to launch your own high-tech firm. Environmental engineers merge engineering with science, biology, and chemistry to improve recycling, waste disposal, public health, and water and air pollution control.
From manufacturing smartphones and cars to streamlining hospital operations to shortening the line at a roller coaster ride, efficiency is key. In the University of Arizona industrial engineering program, learn to combine engineering, business and social science skills to improve production planning, quality assurance, facility planning and information management. Work at atomic and molecular levels to achieve globally significant results. In the University of Arizona materials science and engineering program, students work with glass, ceramics, plastics, polymers, composites, metals and other materials to create the devices and systems essential for solar energy production, information technology and medicine.
From integrated circuits and chip carriers to turbine engines and optical waveguides, become an expert in materials properties, failure analysis, manufacturing techniques and quality assurance. From biomorphic tissues to solar energy systems, mechanical engineering is one of the broadest engineering disciplines.
Use math, computational tools and the laws of physics to design automobile parts, biomedical systems, robots, machine tools and more. In an academic environment closely aligned with industry needs, UA aerospace engineering students learn to design and develop technologies for commercial aircraft, military fighter jets, helicopters, spacecraft, missiles and rockets. The program stresses teamwork and collaboration as professors guide students toward mastery of the skills needed in fields such as of aerodynamics and propulsion, dynamics and controls, and materials and structures.
The aerospace engineering program at the University of Arizona provides students with a broad, well-balanced foundation in the field. Among core courses are the following:. UA aerospace engineering is home to several water tunnels and subsonic wind tunnels, some rivaling many found in industry.
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